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§1 Electromagnetic radiation
Radiation
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Slide 1:
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Natuurkunde
Middelbare school
vwo
Leerjaar 3
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Radiation
Slide 1 - Diapositive
Learning objectives
You can
describe
how a transmitter and a recipient use electromagnetic waves to transport information.
You can
describe
three features of electromagnetic radiation.
You can do
calculations
using the wavelenght, speed of light and frequency.
You can
classify
the different types of electromagnetic radiation within the elctromagnetic spectrum.
You can
describe
the effects of ionising and non-ionising radiation.
Slide 2 - Diapositive
Radiation around us.
Throughout the universe, objects emit
radiation
Radiation is a form of light that is not always visible!
Visible light
radio waves
Gamma radiation
Infrared (IR) radiation
Wi-Fi
UV radiation
Slide 3 - Diapositive
Elektromagnetic spectrum
Radiation occurs in different ways; the so-called "spectrum". The stronger the radiation, the smaller its wavelength.
Slide 4 - Diapositive
Ionising radiation
Radiation that can destroy molecules.
Radio waves, IR radiation and visible light aren't ionising.
X-rays and gamma-rays are highly ionising. Extremely small quantities can cause health damage.
Slide 5 - Diapositive
Elektromagnetic waves
3D
Electromagnetic waves propagate indipendently - even through a vacuum.
Electromagnetic waves always have the same speed : 3,0*10^8 m/s. This is the speed of light and it carries symbol c.
Slide 6 - Diapositive
Frequency and wavelenght
The number of waves that pass
in 1 second, is called the
frequency (Hz).
The distance between 2
successive wave peaks is
called
Wavelength.
Slide 7 - Diapositive
Lambda = wavelengthe in metres (m)
c = speed of light in metres per second (m/s)
f = frequency in hertz (Hz)
λ
=
f
c
λ
Slide 8 - Diapositive
A laser radiates blue light with a wavelength of 470 nm.
Calculate the frequency of this blue light.
λ
=
f
c
Slide 9 - Question ouverte
Slide 10 - Diapositive
Elektromagnetic waves
Slide 11 - Diapositive
Transmit and Receive
Radiation can be used to send and receive wireless signals.
The transmitter
The moving electrons generate an electromagnetic field, which emits radiation at a certain
frequency f
.
The Recipient
Electrons in the antenna of the receiver start to vibrate at
frequency f,
under the influence of the radiation. The signal has now been transmitted
Slide 12 - Diapositive
On 6 august 2012, the mars rover Curiosity landed on the planet. The signal from Curiosity only reached Earth after 13 minutes and 48 seconds.
Calculate the distance between Mars and the Eart at that moment. Give the answer in millions of kilometers.
Slide 13 - Question ouverte
c = 3,0*10^8 m/s
1 million = 1.000.000
Slide 14 - Diapositive
CH 6 § 1 - 2,3,4,6,9,10
Slide 15 - Diapositive
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